Project description:Transcriptome analysis between PMSCs and PMSC-iPSCs We compared the global gene expression between PMSCs and PMSC-iPSCs using the Affymetrix Human U133 gene chip. Array data was processed by Affymetrix Exon Array Computational Tool. No techinical replicates were performed.

Project description:Transcriptome analysis between PMSCs and PMSC-iPSCs

Project description:Transcriptomes of mesenchymal stromal cells from bone marrow (bmMSC) were compared to MSC from term placenta (pMSC). Cells were expanded under GMP-compliant conditions. The transcriptome was explored to compare the regenerative potential of bmMSCs and pMSCs in a pre-clinical and eventually in a clinical context

Project description:We performed transcriptomic studies comparing phenotypically defined PMSCs (PDGFRa/CD34/CD9high:CD200low) to HSCs (Vitamin-A fluorescent) of high purity, using bulk RNAseq. We further extended bulk RNAseq analyses of the two cell populations to myofibroblasts derived from both cell types in culture, including an early and late stage of differentiation for PMSC-MFs. Comparative analyses of gene expression indicated that 100 genes in PMSCs and 112 genes in HSCs, i) were overexpressed according to both scRNAseq and bulk RNAseq analyses, and ii) remained differentially expressed in these cells throughout their myofibroblastic differentiation. We selected the most differentially expressed of these genes, to build a multigene expression signature of PMSCs/PMSC-MFs (7 genes) and of HSCs/HSC-MFs (6 genes).

Project description:We report a novel method for harvesting MSCs from 3D human brain organoids under serum-free culture condition. The stromal cells, derived from both H1-hESCs and human induced pluripotent stem cells (hiPSCs) forebrain organoids, were capable of differentiating into the classical mesenchymal-derived cells (osteoblasts, chondrocytes, and adipocytes). These cells expressed MSC markers, thus named pluripotent stem cell-derived MSCs (pMSCs).To investigate the role of pMSCs, we compared the RNA sequencing of pMSCs ,umbilical cord-MSC,hiPSCs and H1 hESCs.To investigate the function pMSC in the regulation of umbilical cord blood HSPCs, we compared the RNA sequencing of CD34+ cells after co-culturing with and without pMSC and UC-MSCs,respectively.We then performed gene expression profiling analysis using data obtained from RNA-seq of 9 kinds of different cells.

Project description:Somatic mutations are rare in pediatric AML (pAML), indicating alternate strategies are needed to identify new, pediatric AML-specific, druggable targets. We defined the enhancer landscape of 22 pAML patient samples and observed many known leukemia regulators are SE-associated in pAML. The retinoic acid receptor alpha (RARA) gene was differentially regulated in our cohort and present in all cyto/molecular subtypes tested, totaling 64% of the pAML samples. RARA SE-positive pAML cell lines and samples had higher RARA mRNA levels than RARA SE-negative samples and also were specifically sensitive to the synthetic RARA agonist tamibarotene in vitro, with halted proliferation and upregulated retinoid target genes. Tamibarotene prolonged survival and suppressed the leukemia burden of a RARA SE-positive pAML patient-derived xenograft (PDX) mouse model compared to a RARA SE-negative PDX. These data demonstrate the utility of leveraging chromatin regulation to identify new dependencies in pediatric AML and specifically lay the preclinical foundation for a tamibarotene trial in children with relapsed/refractory AML.

Project description:Somatic mutations are rare in pediatric AML (pAML), indicating alternate strategies are needed to identify new, pediatric AML-specific, druggable targets. We defined the enhancer landscape of 22 pAML patient samples and observed many known leukemia regulators are SE-associated in pAML. We confirmed that the expression of several of these SE-associated genes correlated with gene expression by RNA-Seq. The retinoic acid receptor alpha (RARA) gene was differentially regulated in our cohort and present in all cyto/molecular subtypes tested, totaling 64% of the pAML samples. RARA SE-positive pAML cell lines and samples had higher RARA mRNA levels than RARA SE-negative samples and also were specifically sensitive to the synthetic RARA agonist tamibarotene in vitro, with halted proliferation and upregulated retinoid target genes. Tamibarotene prolonged survival and suppressed the leukemia burden of a RARA SE-positive pAML patient-derived xenograft (PDX) mouse model compared to a RARA SE-negative PDX. These data demonstrate the utility of leveraging chromatin regulation to identify new dependencies in pediatric AML and specifically lay the preclinical foundation for a tamibarotene trial in children with relapsed/refractory AML.

Project description:Purpose: To investigate the transcriptome of primary pediatric acute myeloid leukemia to identify molecular signatures correlated with sensitivity to LV-10 mediated killing Method: RNA sequencing of polyA enriched pediatric acute myeloid leukemia bone marrow aspirates Results: pAML killing sensitivity is associated with the expression of a myeloid maturation signature, while resistant pAMLs expressed a more stem cell-like signature Conclusions: Pediatric acute myeloid leukemia samples have different sensitivities to killing by LV-10 in vitro and the transcriptomes of killing-sensitive and killing-resistant lines differ

Project description:Background and methods: Ruxolitinib (RUX) is a Jak inhibitor that is used in the treatment of intermediate or high risk myelofibrosis and resistant forms of polycythemia vera and graft-vs-host disease due to its efficacy of reducing inflammatory cytokines and markers of inflammation. We tested its potential therapeutic effects in murine models of immune-mediated bone marrow failure. RNA-Seq and analysis was performed using NEBNext Ultra™ II RNA Library Prep Kit for Illumina and Illumina Novaseq6000, according to the Institute's protocols. Results: As both prophylaxis and therapy, Ruxolitinib improved pancytopenia and BM cellularity and decreased BM T cell infiltration in bone marrow failure mice. RNA sequencing demonstrated that Ruxolitinib suppressed expression of inflammtory genes in bone marrow infiltrated CD8 T cells compared with untreated mice. Conclusion: Our results demonstrate that Ruxolitinib is highly effective in attenuation of disease and extending survival of immune-mediated bone marrow failure mice.

Project description:Background and methods: Ruxolitinib (RUX), a Jak1/2 inhibitor, has been reported to attenuate murine bone marrow failure recently. Its potential toxocicty of anemia and thrombocytopenia in human remains a concern. To minimize its potential toxoxicity, we tested therapeutic effectsof low dose ruxolitinib plus cyclosporine in murine model of immune-mediated bone marrow failure. Bone marrow CD8 and CD4 T cells were sorted from treated or untreated bone marrow failure mice. RNA-Seq and analysis was performed using SMART-Seq mRNA LP Kit (Takara) and the Illumina Novaseq6000, according to the Institute's protocols. Results: low dose of ruxolitinib plus cyclosporine improved pancytopenia and BM cellularity and decreased BM T cell infiltration in bone marrow failure mice. RNA sequencing demonstrated that low dose of ruxolitinib plus cyclosporine suppressed immune-related pathways in bone marrow infiltrated CD8 T cells and MHC-II expression in CD4 T cells compared with untreated mice. Conclusion: Our results demonstrate that low dose of ruxolitinib plus cyclosporine remains the efficacy in attenuation of disease and extending survival of immune-mediated bone marrow failure mice.